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Daniel J Shiwarski
Carnegie-Mellon University
$1,089,340
Attributed
$1,089,340
Total exposure
3
Grants
3
Lead (contact PI)
Attributed= this PI's even-split share of every grant they're on (the fair, additive number). Exposure = full size of all those grants. They are the sole PI on all grants (the two match).
Funding over time
peak $249K · FY2018–25$250K$187.5K$125K$62.5K$0
'18
'19
'20
'21
'22
'23
'24
'25
Funding mix
By agency
NIH$1,089,340 · 3
By mechanism
R00$747,000 · 1
K99$222,076 · 1
F32$120,264 · 1
Top collaborators
No co-investigators on record.
Most similar at Carnegie-Mellon University
Same institution · by research overlap
- Keefe B Manning$2,645,724
- Phil Gordon Campbell$6,765,505
- Adam Walter Feinberg$5,674,496
- Nikson Yang$2,178
- Andrew Davol$1,244
Others in their field
Other Emerging Leaders on “Fluorescence Imaging”
- Kirsten Frieda · Spatial Genomics, Inc.$13,250,142
- Francois St-Pierre · Baylor College Of Medicine$9,622,105
- Na Ji · University Of California Berkeley$9,151,561
- Kristen A Johnson · California Institute/Biomedical Research$8,530,970
- Mark Harfouche · Ramona Optics, Inc.$8,220,952
- Simon Scheuring · Weill Medical Coll Of Cornell Univ$7,714,560
Research focus
Fluorescence ImagingSensorCustomFluorescenceMechanicsPhysiologicalCell Differentiation ProcessComplexDisease ModelFibronectinsFoundationsIn VivoMonolayerNanomechanicsAdultBiomechanicsCellsBiosensor3-DimensionalDevelopment PlansEngineeringExtracellular Matrix ProteinsCell PhysiologyStructure
Grant awards (7)
Development of a Collagen-based 3D Bioprinted Microfluidic Platform for Vascular Tissue Engineering and Disease Modeling$249,000
R00 · FY2025 · HL · contact PI
Development of a Collagen-based 3D Bioprinted Microfluidic Platform for Vascular Tissue Engineering and Disease Modeling$249,000
R00 · FY2024 · HL · contact PI
Development of a Collagen-based 3D Bioprinted Microfluidic Platform for Vascular Tissue Engineering and Disease Modeling$249,000
R00 · FY2023 · HL · contact PI
Development of a Collagen-based 3D Bioprinted Microfluidic Platform for Vascular Tissue Engineering and Disease Modeling$111,038
K99 · FY2022 · HL · contact PI
Development of a Collagen-based 3D Bioprinted Microfluidic Platform for Vascular Tissue Engineering and Disease Modeling$111,038
K99 · FY2021 · HL · contact PI
Mapping 3D Mechanical Strains During Embryonic Heart Formation to Improve the Structure and Function of Engineered Human Heart Muscle$61,610
F32 · FY2019 · HL · contact PI
Mapping 3D Mechanical Strains During Embryonic Heart Formation to Improve the Structure and Function of Engineered Human Heart Muscle$58,654
F32 · FY2018 · HL · contact PI